2012
DOI: 10.1002/mame.201200078
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Pyridine‐Modified Polymer as a Non‐Covalent Compatibilizer for Multi‐Walled CNT/Poly[ethylene‐co‐(methacrylic acid)] Composites Fabricated by Direct Melt Mixing

Abstract: Multi-wall CNT/poly[ethylene-co-(methacrylic acid)] composites were prepared by melt mixing. To improve dispersion and promote polymer/nanotube interactions, a novel non-covalent compatibilizer is synthesized by reacting the polymer with 4-(aminomethyl)pyridine. The composite based on the pristine polymer shows electrical and rheological percolation thresholds at nanotube loadings of 1.85 and 1.4 wt%, respectively. When 5 wt% of the pyridine-modified compatibilizer is added, the corresponding values are reduce… Show more

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Cited by 7 publications
(16 citation statements)
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References 43 publications
(48 reference statements)
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“…The compatibilizer was synthesized similarly to a process reported elsewhere . Fifty grams of PEAA was dissolved in 500 ml of THF at 67°C for 12 h. A stoichiometric amount of AMP (3:1 molar ratio with respect to the acrylic acid content) were added, and the reaction was carried out for 12 h. The pyridine modified polymeric compatibilizer (PEAA‐AMP) was precipitated with cold methanol, filtered, washed extensively with methanol, and vacuum dried at 60°C.…”
Section: Methodssupporting
confidence: 56%
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“…The compatibilizer was synthesized similarly to a process reported elsewhere . Fifty grams of PEAA was dissolved in 500 ml of THF at 67°C for 12 h. A stoichiometric amount of AMP (3:1 molar ratio with respect to the acrylic acid content) were added, and the reaction was carried out for 12 h. The pyridine modified polymeric compatibilizer (PEAA‐AMP) was precipitated with cold methanol, filtered, washed extensively with methanol, and vacuum dried at 60°C.…”
Section: Methodssupporting
confidence: 56%
“…In this work we continue to develop our previous concept, which is based on the pyridine modification of acidic copolymer as a route toward the synthesis of π‐interaction compatibilizer family for CNT composites. The advantage of such compatibilizer is that it does not change the CNT inherent structure and electrical properties from the one hand, but it is able to form strong non‐covalent interactions with the CNTs to increase chemical affinity.…”
Section: Introductionmentioning
confidence: 99%
“…The addition of the aromatic functionality to the PP backbone caused a more pronounced shift, providing evidence of increased polymer/filler interactions. This is likely attributable to the noncovalent p-p interaction between pyridine groups and nanotube sidewalls [3,27]. Figure 8 shows that addition of 1.7 vol% MWCNTs resulted in an increase in composite conductivity by approximately 13 orders of magnitude.…”
Section: Mwcnt Dispersionmentioning
confidence: 94%
“…Fitting of this model to the data shown in Fig. 8 resulted in a percolation threshold value of u c 50.7 vol% (1.2 wt% estimated using a MWCNT density of 1.65 g/ cm 3 ) for both PP/PP-g-MA and PP/PP-g-Py matrices. These values are lower than the percolation thresholds reported in the literature for PP.…”
Section: Electrical Properties and Their Relation To Dispersionmentioning
confidence: 97%
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